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driver-alchemist.c
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driver-alchemist.c
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/*
* Copyright 2015-2016 John Stefanopoulos
* Copyright 2014-2015 Luke Dashjr
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 3 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
// THIS DRIVER REQUIRES THE LATEST FIRMWARE FOR AlCHEMINERS DEVELOPED BY JSTEFANOP
// IT WILL NOT WORK WITH THE STOCK FACTORY FIRMWARE ON THE BOARDS
// PLEASE CONTACT JSTEFANOP AT MAC DOT COM OR JSTEFANOP ON LITECOINTALK DOT ORG FOR MORE INFO
#include "config.h"
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <stdio.h>
#include <fcntl.h>
#include "deviceapi.h"
#include "logging.h"
#include "lowlevel.h"
#include "lowl-vcom.h"
#include "util.h"
static const uint8_t alchemist_max_chips = 0x20;
#define ALCHEMIST_DEFAULT_FREQUENCY 352
#define ALCHEMIST_MIN_CLOCK 200
#define ALCHEMIST_MAX_CLOCK 400
// Number of seconds full board of 1728 cores @ 352mhz takes to scan full range
#define ALCHEMIST_HASH_SPEED 134.0
#define ALCHEMIST_MAX_NONCE 0xffffffff
#define ALCHEMIST_READ_SIZE 9
#define alchemist_max_clusters_per_chip 6
#define alchemist_max_cores_per_cluster 9
static const uint8_t alchemist_g_head[] = {
0xd4, 0x59, 0x2d, 0x01, 0x1d, 0x01, 0x8e, 0xa7, 0x4e, 0xbb, 0x17, 0xb8, 0x06, 0x6b, 0x2a, 0x75,
0x83, 0x99, 0xd5, 0xf1, 0x9b, 0x5c, 0x60, 0x73, 0xd0, 0x9b, 0x50, 0x0d, 0x92, 0x59, 0x82, 0xad,
0xc4, 0xb3, 0xed, 0xd3, 0x52, 0xef, 0xe1, 0x46, 0x67, 0xa8, 0xca, 0x9f, 0x27, 0x9f, 0x63, 0x30,
0xcc, 0xbb, 0xb9, 0x10, 0x3b, 0x9e, 0x3a, 0x53, 0x50, 0x76, 0x50, 0x52, 0x08, 0x1d, 0xdb, 0xae,
0x89, 0x8f, 0x1e, 0xf6, 0xb8, 0xc6, 0x4f, 0x3b, 0xce, 0xf7, 0x15, 0xf6, 0, 0, 0, 1,
0, 0, 0, 1, 0x8e, 0xa7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0
};
BFG_REGISTER_DRIVER(alchemist_drv)
static const struct bfg_set_device_definition alchemist_set_device_funcs_probe[];
struct alchemist_chip {
uint8_t chipid;
uint8_t global_reg[8];
uint16_t chip_mask[alchemist_max_clusters_per_chip];
uint32_t clst_offset[alchemist_max_clusters_per_chip];
unsigned active_cores;
unsigned freq;
unsigned reset_mode;
};
static
void alchemist_chip_init(struct alchemist_chip * const chip, const uint8_t chipid)
{
*chip = (struct alchemist_chip){
.chipid = chipid,
.global_reg = {0, 4, 0x40, 0, 0, 0, 0, 1},
.chip_mask = {0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000},
.clst_offset = {0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000},
.active_cores = 1728,
.freq = ALCHEMIST_DEFAULT_FREQUENCY,
.reset_mode = 0,
};
}
static
void alchemist_reset_board(const char * const devpath, struct alchemist_chip * const chip, const int fd)
{
if (chip->reset_mode == 0) {
char gpio[8];
int fd;
char buf[50];
// TODO: allow custom reset pin through --set for non-stock controller
if (strcmp(devpath, "/dev/ttyO1") == 0)
strcpy(gpio, "gpio117");
else if (strcmp(devpath, "/dev/ttyO2") == 0)
strcpy(gpio, "gpio110");
else if (strcmp(devpath, "/dev/ttyO3") == 0)
strcpy(gpio, "gpio111");
else if (strcmp(devpath, "/dev/ttyO4") == 0)
strcpy(gpio, "gpio112");
else if (strcmp(devpath, "/dev/ttyUSB0") == 0)
strcpy(gpio, "gpio113");
else if (strcmp(devpath, "/dev/ttyUSB1") == 0)
strcpy(gpio, "gpio114");
else if (strcmp(devpath, "/dev/ttyUSB2") == 0)
strcpy(gpio, "gpio115");
else if (strcmp(devpath, "/dev/ttyUSB3") == 0)
strcpy(gpio, "gpio116");
else if (strcmp(devpath, "/dev/ttyAMA0") == 0)
strcpy(gpio, "gpio25");
else
return;
sprintf(buf, "/sys/class/gpio/%s/value", gpio);
fd = open(buf, O_WRONLY);
if (write(fd, "0", 1) != 1)
applog(LOG_DEBUG, "%s: %s %s", alchemist_drv.dname, "GPIO write error", devpath);
cgsleep_ms(100);
if (write(fd, "1", 1) != 1)
applog(LOG_DEBUG, "%s: %s %s", alchemist_drv.dname, "GPIO write error", devpath);
close(fd);
} else {
applog(LOG_DEBUG, "START IOCTL RTS RESET");
if (set_serial_rts(fd, BGV_HIGH) == BGV_ERROR) {
applog(LOG_DEBUG, "IOCTL RTS RESET FAILED");
}
if (set_serial_dtr(fd, BGV_HIGH) == BGV_ERROR) {
applog(LOG_DEBUG, "IOCTL DTR RESET FAILED");
}
cgsleep_ms(100);
if (set_serial_rts(fd, BGV_LOW) == BGV_ERROR) {
applog(LOG_DEBUG, "IOCTL RTS RESET FAILED");
}
if (set_serial_dtr(fd, BGV_LOW) == BGV_ERROR) {
applog(LOG_DEBUG, "IOCTL DTR RESET FAILED");
}
}
}
static
void alchemist_set_diag_mode(struct alchemist_chip * const chip, bool diag_enable)
{
if (diag_enable)
chip->global_reg[1] |= 1;
else
chip->global_reg[1] &= ~1;
}
static
bool alchemist_write_global_reg(const int fd, const struct alchemist_chip * const chip)
{
uint8_t buf[113];
memset(&buf, 0, 102);
memcpy(&buf[102], &chip->global_reg[0], 8);
buf[110] = 0;
buf[111] = 0xff;
buf[112] = chip->chipid;
//char output[(sizeof(chip->global_reg) * 2) + 1];
//bin2hex(output, chip->global_reg, sizeof(chip->global_reg));
//applog(LOG_DEBUG, "GLOBAL REG %s", output);
if (write(fd, buf, sizeof(buf)) != sizeof(buf))
return false;
return true;
}
static
bool alchemist_write_cluster_reg(const int fd, const struct alchemist_chip * const chip, const uint16_t cores_active, const uint32_t offset, const uint8_t clstid)
{
uint8_t buf[113];
memset(&buf, 0, 104);
pk_u16be(buf, 104, cores_active);
pk_u32be(buf, 106, offset);
buf[110] = clstid;
buf[111] = 0xfe;
buf[112] = chip->chipid;
//applog(LOG_DEBUG, " %u: %u: %u : %u", buf[106], buf[107], buf[108], buf[109]);
if (write(fd, buf, sizeof(buf)) != sizeof(buf))
return false;
return true;
}
static
bool alchemist_init_pll(const int fd, struct alchemist_chip * const chip)
{
unsigned freq = chip->freq;
uint8_t divider = (freq - 16)/16;
divider <<= 1;
uint8_t bytes1 = 0x60 | ((divider & 0xf0) >> 4);
uint8_t bytes2 = 0x20 | ((divider & 0xf0) >> 4);
uint8_t bytes3 = 0x00 | ((divider & 0x0f) << 4);
pk_u16be(chip->global_reg, 2, 0x4000);
chip->global_reg[1] |= 0xc;
if (!alchemist_write_global_reg(fd, chip))
return false;
chip->global_reg[2] = bytes1;
chip->global_reg[3] = bytes3;
cgsleep_ms(20);
if (!alchemist_write_global_reg(fd, chip))
return false;
chip->global_reg[2] = bytes2;
chip->global_reg[1] &= ~8;
cgsleep_ms(20);
if (!alchemist_write_global_reg(fd, chip))
return false;
chip->global_reg[1] &= ~4;
cgsleep_ms(20);
if (!alchemist_write_global_reg(fd, chip))
return false;
return true;
}
static
bool alchemist_send_golden(const int fd, const struct alchemist_chip * const chip, const bool diag, const void * const data, const void * const target_p)
{
uint8_t buf[113];
const uint8_t * const target = target_p;
memcpy(buf, data, 80);
if (target && !target[0x1f])
memcpy(&buf[80], target, 0x20);
else
{
memset(&buf[80], 0xff, 0x1f);
buf[111] = 0;
}
buf[112] = chip->chipid;
if (diag)
buf[112] |= 0x80;
if (write(fd, buf, sizeof(buf)) != sizeof(buf))
return false;
return true;
}
static
bool alchemist_send_work(const struct thr_info * const thr, struct work * const work)
{
struct cgpu_info *device = thr->cgpu;
uint8_t buf[113];
uint8_t cmd[113];
const uint8_t * const target = work->target;
unsigned char swpdata[80];
buf[0] = 0xff;
memset(&buf[1], 0, 0x18);
memcpy(&buf[25], &target[24], 0x8);
//pk_u64be(buf, 25, 0x0000feff01000000);
swap32tobe(swpdata, work->data, 80/4);
memcpy(&buf[33], swpdata, 80);
for (int i = 0; i<113; i++) {
cmd[i] = buf[112 - i];
}
//char output[(sizeof(cmd) * 2) + 1];
//bin2hex(output, cmd, sizeof(cmd));
//applog(LOG_DEBUG, "OUTPUT %s", output);
if (write(device->device_fd, cmd, sizeof(cmd)) != sizeof(cmd))
return false;
work->blk.nonce = ALCHEMIST_MAX_NONCE;
return true;
}
static
bool alchemist_detect_one(const char * const devpath)
{
struct alchemist_chip *chips = NULL;
const int fd = serial_open(devpath, 115200, 1, true);
if (fd < 0)
return_via_applog(err, , LOG_DEBUG, "%s: %s %s", alchemist_drv.dname, "Failed to open", devpath);
applog(LOG_DEBUG, "%s: %s %s", alchemist_drv.dname, "Successfully opened", devpath);
// Init chips, setup PLL, and scan for good cores
chips = malloc(alchemist_max_chips * sizeof(*chips));
struct alchemist_chip * const dummy_chip = &chips[0];
alchemist_chip_init(dummy_chip, 0);
// pick up any user-defined settings passed in via --set
drv_set_defaults(&alchemist_drv, alchemist_set_device_funcs_probe, dummy_chip, devpath, detectone_meta_info.serial, 1);
unsigned freq = dummy_chip->freq;
unsigned mode = dummy_chip->reset_mode;
unsigned total_cores = 0;
alchemist_reset_board(devpath, dummy_chip, fd);
{
uint8_t buf[9];
for (unsigned i = 0; i < alchemist_max_chips; ++i)
{
struct alchemist_chip * const chip = &chips[i];
alchemist_chip_init(chip, i);
chip->freq = freq;
chip->reset_mode = mode;
alchemist_set_diag_mode(chip, true);
if (!alchemist_init_pll(fd, chip))
return_via_applog(err, , LOG_DEBUG, "%s: Failed to (%s) %s", alchemist_drv.dname, "init PLL", devpath);
if (!alchemist_send_golden(fd, chip, true, alchemist_g_head, NULL))
return_via_applog(err, , LOG_DEBUG, "%s: Failed to (%s) %s", alchemist_drv.dname, "send scan job", devpath);
while (serial_read(fd, buf, 9) == 9)
{
const uint8_t chipid = buf[8];
if (chipid >= alchemist_max_chips)
applog(LOG_DEBUG, "%s: Bad %s id (%u) during scan of %s chip %u", alchemist_drv.dname, "chip", chipid, devpath, i);
const uint8_t clsid = buf[7];
if (clsid >= alchemist_max_clusters_per_chip)
applog(LOG_DEBUG, "%s: Bad %s id (%u) during scan of %s chip %u", alchemist_drv.dname, "cluster", clsid, devpath, i);
const uint8_t coreid = buf[6];
if (coreid >= alchemist_max_cores_per_cluster)
applog(LOG_DEBUG, "%s: Bad %s id (%u) during scan of %s chip %u", alchemist_drv.dname, "core", coreid, devpath, i);
if (buf[0] != 0xd9 || buf[1] != 0xeb || buf[2] != 0x86 || buf[3] != 0x63) {
//chips[i].chip_good[clsid][coreid] = false;
applog(LOG_DEBUG, "%s: Bad %s at core (%u) during scan of %s chip %u cluster %u", alchemist_drv.dname, "nonce", coreid, devpath, i, clsid);
} else {
++total_cores;
chips[i].chip_mask[clsid] |= (1 << coreid);
}
}
}
}
applog(LOG_DEBUG, "%s: Identified %d cores on %s", alchemist_drv.dname, total_cores, devpath);
if (!total_cores)
goto err;
alchemist_reset_board(devpath, dummy_chip, fd);
// config nonce ranges per cluster based on core responses
unsigned mutiple = ALCHEMIST_MAX_NONCE / total_cores;
uint32_t n_offset = 0x00000000;
for (unsigned i = 0; i < alchemist_max_chips; ++i)
{
struct alchemist_chip * const chip = &chips[i];
chips[i].active_cores = total_cores;
alchemist_set_diag_mode(chip, false);
if (!alchemist_init_pll(fd, chip))
return_via_applog(err, , LOG_DEBUG, "%s: Failed to (%s) %s", alchemist_drv.dname, "init PLL", devpath);
cgsleep_ms(10);
for (unsigned x = 0; x < alchemist_max_clusters_per_chip; ++x) {
unsigned gc = 0;
uint16_t core_mask = chips[i].chip_mask[x];
chips[i].clst_offset[x] = n_offset;
//applog(LOG_DEBUG, "OFFSET %u CHIP %u CLUSTER %u", n_offset, i, x);
if (!alchemist_write_cluster_reg(fd, chip, core_mask, n_offset, x))
return_via_applog(err, , LOG_DEBUG, "%s: Failed to (%s) %s", alchemist_drv.dname, "send config register", devpath);
for (unsigned z = 0; z < 15; ++z) {
if (core_mask & 0x0001)
gc += 1;
core_mask >>= 1;
}
n_offset += mutiple * gc;
}
}
if (serial_claim_v(devpath, &alchemist_drv))
goto err;
//serial_close(fd);
struct cgpu_info * const cgpu = malloc(sizeof(*cgpu));
*cgpu = (struct cgpu_info){
.drv = &alchemist_drv,
.device_path = strdup(devpath),
.deven = DEV_ENABLED,
.procs = 1,
.threads = 1,
.device_data = chips,
};
// NOTE: Xcode's clang has a bug where it cannot find fields inside anonymous unions (more details in fpgautils)
cgpu->device_fd = fd;
return add_cgpu(cgpu);
err:
if (fd >= 0)
serial_close(fd);
free(chips);
return false;
}
/*
* scanhash mining loop
*/
static
void alchemist_submit_nonce(struct thr_info * const thr, const uint8_t buf[9], struct work * const work)
{
struct cgpu_info *device = thr->cgpu;
struct alchemist_chip *chips = device->device_data;
uint32_t nonce = *(uint32_t *)buf;
nonce = bswap_32(nonce);
submit_nonce(thr, work, nonce);
// hashrate calc
const uint8_t chipid = buf[8];
const uint8_t clstid = buf[7];
uint32_t range = chips[chipid].clst_offset[clstid];
uint32_t mutiple = ALCHEMIST_MAX_NONCE / chips[chipid].active_cores;
double diff_mutiple = .5/work->work_difficulty;
for (unsigned x = 0; x < alchemist_max_cores_per_cluster; ++x) {
if (nonce > range && nonce < (range + mutiple)) {
uint64_t hashes = (nonce - range) * chips[chipid].active_cores * diff_mutiple;
if (hashes > ALCHEMIST_MAX_NONCE)
hashes = 1;
hashes_done2(thr, hashes, NULL);
}
range += mutiple;
}
}
// send work to the device
static
int64_t alchemist_scanhash(struct thr_info *thr, struct work *work, int64_t __maybe_unused max_nonce)
{
struct cgpu_info *device = thr->cgpu;
int fd = device->device_fd;
struct alchemist_chip *chips = device->device_data;
struct timeval start_tv, nonce_range_tv;
// amount of time it takes this device to scan a nonce range:
uint32_t nonce_full_range_sec = ALCHEMIST_HASH_SPEED * 352.0 / ALCHEMIST_DEFAULT_FREQUENCY * 1728.0 / chips[0].active_cores;
// timer to break out of scanning should we close in on an entire nonce range
// should break out before the range is scanned, so we are doing 95% of the range
uint64_t nonce_near_range_usec = (nonce_full_range_sec * 1000000. * 0.95);
timer_set_delay_from_now(&nonce_range_tv, nonce_near_range_usec);
// start the job
timer_set_now(&start_tv);
if (!alchemist_send_work(thr, work)) {
applog(LOG_DEBUG, "Failed to start job");
dev_error(device, REASON_DEV_COMMS_ERROR);
}
uint8_t buf[9];
int read = 0;
bool range_nearly_scanned = false;
while (!thr->work_restart // true when new work is available (miner.c)
&& ((read = serial_read(fd, buf, 9)) >= 0) // only check for failure - allow 0 bytes
&& !(range_nearly_scanned = timer_passed(&nonce_range_tv, NULL))) // true when we've nearly scanned a nonce range
{
if (read == 0)
continue;
if (read == 9) {
alchemist_submit_nonce(thr, buf, work);
}
else
applog(LOG_ERR, "%"PRIpreprv": Unrecognized response", device->proc_repr);
}
if (read == -1)
{
applog(LOG_ERR, "%s: Failed to read result", device->dev_repr);
dev_error(device, REASON_DEV_COMMS_ERROR);
}
return 0;
}
/*
* setup & shutdown
*/
static
bool alchemist_lowl_probe(const struct lowlevel_device_info * const info)
{
return vcom_lowl_probe_wrapper(info, alchemist_detect_one);
}
static
void alchemist_thread_shutdown(struct thr_info *thr)
{
struct cgpu_info *device = thr->cgpu;
struct alchemist_chip *chips = device->device_data;
alchemist_reset_board(device->device_path, &chips[0], device->device_fd);
serial_close(device->device_fd);
}
/*
* specify settings / options via RPC or command line
*/
// support for --set
// must be set before probing the device
// for setting clock and chips during probe / detect
static
const char *alchemist_set_clock(struct cgpu_info * const device, const char * const option, const char * const setting, char * const replybuf, enum bfg_set_device_replytype * const success)
{
struct alchemist_chip * const chip = device->device_data;
int val = atoi(setting);
if (val < ALCHEMIST_MIN_CLOCK || val > ALCHEMIST_MAX_CLOCK || (val%16)) {
sprintf(replybuf, "invalid clock: '%s' valid range %d-%d and a mutiple of 16",
setting, ALCHEMIST_MIN_CLOCK, ALCHEMIST_MAX_CLOCK);
return replybuf;
} else
chip->freq = val;
return NULL;
}
static
const char *alchemist_set_mode(struct cgpu_info * const device, const char * const option, const char * const setting, char * const replybuf, enum bfg_set_device_replytype * const success)
{
struct alchemist_chip * const chip = device->device_data;
int val = atoi(setting);
if (val == 1) {
chip->reset_mode = val;
sprintf(replybuf, "Driver mode set to raspery pi controller using USB->UART Dongles");
return replybuf;
}
return NULL;
}
static
const struct bfg_set_device_definition alchemist_set_device_funcs_probe[] = {
{ "clock", alchemist_set_clock, NULL },
{ "mode", alchemist_set_mode, NULL },
{ NULL },
};
struct device_drv alchemist_drv = {
.dname = "alchemist",
.name = "ALC",
.drv_min_nonce_diff = common_scrypt_min_nonce_diff,
// detect device
.lowl_probe = alchemist_lowl_probe,
// specify mining type - scanhash
.minerloop = minerloop_scanhash,
// scanhash mining hooks
.scanhash = alchemist_scanhash,
// teardown device
.thread_shutdown = alchemist_thread_shutdown,
};